LM2904DMR2 - ON Semiconductor L.L.C.

© Semiconductor Components Industries, LLC, 2008

January, 2008 - Rev. 23

1Publication Order Number:

LM358/D

LM258, LM358, LM358A,

LM2904, LM2904A,

LM2904V, NCV2904

Single Supply Dual

Operational Amplifiers

Utilizing the circuit designs perfected for Quad Operational

Amplifiers, these dual operational amplifiers feature low power drain,

a common mode input voltage range extending to ground/VEE, and

single supply or split supply operation. The LM358 series is

equivalent to one-half of an LM324.

These amplifiers have several distinct advantages over standard

operational amplifier types in single supply applications. They can

operate at supply voltages as low as 3.0 V or as high as 32 V, with

quiescent currents about one-fifth of those associated with the

MC1741 (on a per amplifier basis). The common mode input range

includes the negative supply, thereby eliminating the necessity for

external biasing components in many applications. The output voltage

range also includes the negative power supply voltage.

Features

•Short Circuit Protected Outputs

•True Differential Input Stage

•Single Supply Operation: 3.0 V to 32 V

•Low Input Bias Currents

•Internally Compensated

•Common Mode Range Extends to Negative Supply

•Single and Split Supply Operation

•ESD Clamps on the Inputs Increase Ruggedness of the Device

without Affecting Operation

•Pb-Free Packages are Available

•NCV Prefix for Automotive and Other Applications Requiring Site

and Control Changes

PDIP-8

N, AN, VN SUFFIX

CASE 626

SOIC-8

D, VD SUFFIX

CASE 751

PIN CONNECTIONS

VEE/Gnd

Inputs A

Inputs B

Output B

Output A VCC

(Top View)

See general marking information in the device marking

section on page 11 of this data sheet.

DEVICE MARKING INFORMATION

See detailed ordering and shipping information in the package

dimensions section on page 10 of this data sheet.

ORDERING INFORMATION

Micro8]

DMR2 SUFFIX

CASE 846A

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LM258, LM358, LM358A, LM2904, LM2904A, LM2904V, NCV2904

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Single Supply Split Supplies

VCC

VEE/Gnd

3.0 V to VCC(max)

VCC

VEE

1.5 V to VCC(max)

1.5 V to VEE(max)

Output

Bias Circuitry

Common to Both

Amplifiers

VCC

VEE/Gnd

Inputs

Q3 Q4

Q26

Q11

Q10

Q1 2.4 k

Q25

Q22

40 k

Q13

Q14

Q15

Q16

Q19

5.0 pF

Q18

Q17

Q20

Q21

2.0 k

Q24

Q23

Q12

Figure 1.

Figure 2. Representative Schematic Diagram

(One-Half of Circuit Shown)

LM258, LM358, LM358A, LM2904, LM2904A, LM2904V, NCV2904

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MAXIMUM RATINGS (TA = +25°C, unless otherwise noted.)

Rating Symbol Value Unit

Power Supply Voltages

Single Supply

Split Supplies

VCC

VCC, VEE

±16

Vdc

Input Differential Voltage Range (Note 1) VIDR ±32 Vdc

Input Common Mode Voltage Range (Note 2) VICR -0.3 to 32 Vdc

Output Short Circuit Duration tSC Continuous

Junction Temperature TJ150 °C

Thermal Resistance, Junction-to-Air (Note 3) Case 846A

Case 751

Case 626

RJA 238

212

161

°C/W

Storage Temperature Range Tstg -65 to +150 °C

ESD Protection at any Pin

Human Body Model

Machine Model

Vesd

2000

200

Operating Ambient Temperature Range

LM258

LM358, LM358A

LM2904/LM2904A

LM2904V, NCV2904 (Note 4)

-25 to +85

0 to +70

-40 to +105

-40 to +125

°C

Stresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress ratings only. Functional operation above the

Recommended Operating Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affect

device reliability.

1. Split Power Supplies.

2. For supply voltages less than 32 V the absolute maximum input voltage is equal to the supply voltage.

3. All RJA measurements made on evaluation board with 1 oz. copper traces of minimum pad size. All device outputs were active.

4. NCV2904 is qualified for automotive use.

LM258, LM358, LM358A, LM2904, LM2904A, LM2904V, NCV2904

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ELECTRICAL CHARACTERISTICS (VCC = 5.0 V, VEE = GND, TA = 25°C, unless otherwise noted.)

Characteristic Symbol

LM258 LM358 LM358A

Unit

Min Typ Max Min Typ Max Min Typ Max

Input Offset Voltage

VCC = 5.0 V to 30 V, VIC = 0 V to VCC -1.7 V,

VO ] 1.4 V, RS = 0 

VIO mV

TA = 25°C - 2.0 5.0 - 2.0 7.0 - 2.0 3.0

TA = Thigh (Note 5) - - 7.0 - - 9.0 - - 5.0

TA = Tlow (Note 5) - - 7.0 - - 9.0 - - 5.0

Average Temperature Coefficient of Input Offset

Voltage

VIO/T- 7.0 - - 7.0 - - 7.0 - V/°C

TA = Thigh to Tlow (Note 5)

Input Offset Current IIO - 3.0 30 - 5.0 50 - 5.0 30 nA

TA = Thigh to Tlow (Note 5) - - 100 - - 150 - - 75

Input Bias Current IIB - -45 -150 - -45 -250 - -45 -100

TA = Thigh to Tlow (Note 5) - -50 -300 - -50 -500 - -50 -200

Average Temperature Coefficient of Input Offset

Current

IIO/T- 10 - - 10 - - 10 - pA/°C

TA = Thigh to Tlow (Note 5)

Input Common Mode Voltage Range (Note 6),

VCC = 30 V

VICR 0 - 28.3 0 - 28.3 0 - 28.5 V

VCC = 30 V, TA = Thigh to Tlow 0 - 28 0 - 28 0 - 28

Differential Input Voltage Range VIDR - - VCC - - VCC - - VCC V

Large Signal Open Loop Voltage Gain AVOL V/mV

RL = 2.0 k, VCC = 15 V, For Large VO Swing, 50 100 - 25 100 - 25 100 -

TA = Thigh to Tlow (Note 5) 25 - - 15 - - 15 - -

Channel Separation CS - -120 - - -120 - - -120 - dB

1.0 kHz ≤ f ≤ 20 kHz, Input Referenced

Common Mode Rejection CMR 70 85 - 65 70 - 65 70 - dB

RS ≤ 10 k

Power Supply Rejection PSR 65 100 - 65 100 - 65 100 - dB

Output Voltage-High Limit

TA = Thigh to Tlow (Note 5)

VOH V

VCC = 5.0 V, RL = 2.0 k, TA = 25°C3.3 3.5 - 3.3 3.5 - 3.3 3.5 -

VCC = 30 V, RL = 2.0 k26 - - 26 - - 26 - -

VCC = 30 V, RL = 10 k27 28 - 27 28 - 27 28 -

Output Voltage-Low Limit VOL - 5.0 20 - 5.0 20 - 5.0 20 mV

VCC = 5.0 V, RL = 10 k,

TA = Thigh to Tlow (Note 5)

Output Source Current IO+mA

VID = +1.0 V, VCC = 15 V 20 40 - 20 40 - 20 40 -

TA = Thigh to Tlow (LM358A Only) 10 - -

Output Sink Current IO-

VID = -1.0 V, VCC = 15 V 10 20 - 10 20 - 10 20 - mA

TA = Thigh to Tlow (LM358A Only) 5.0 - - mA

VID = -1.0 V, VO = 200 mV 12 50 - 12 50 - 12 50 - A

Output Short Circuit to Ground (Note 7) ISC - 40 60 - 40 60 - 40 60 mA

Power Supply Current (Total Device)

TA = Thigh to Tlow (Note 5)

ICC mA

VCC = 30 V, VO = 0 V, RL = ∞- 1.5 3.0 - 1.5 3.0 - 1.5 2.0

VCC = 5 V, VO = 0 V, RL = ∞- 0.7 1.2 - 0.7 1.2 - 0.7 1.2

5. LM258: Tlow = -25°C, Thigh = +85°C LM358, LM358A: Tlow = 0°C, Thigh = +70°C

LM2904/LM2904A: Tlow = -40°C, Thigh = +105°C LM2904V & NCV2904: Tlow = -40°C, Thigh = +125°C

NCV2904 is qualified for automotive use.

6. The input common mode voltage or either input signal voltage should not be allowed to go negative by more than 0.3 V. The upper end of

the common mode voltage range is VCC - 1.7 V.

7. Short circuits from the output to VCC can cause excessive heating and eventual destruction. Destructive dissipation can result from

simultaneous shorts on all amplifiers.

LM258, LM358, LM358A, LM2904, LM2904A, LM2904V, NCV2904

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ELECTRICAL CHARACTERISTICS (VCC = 5.0 V, VEE = Gnd, TA = 25°C, unless otherwise noted.)

Characteristic Symbol

LM2904 LM2904A LM2904V, NCV2904

Unit

Min Typ Max Min Typ Max Min Typ Max

Input Offset Voltage

VCC = 5.0 V to 30 V, VIC = 0 V to VCC -1.7 V,

VO ] 1.4 V, RS = 0 

VIO mV

TA = 25°C - 2.0 7.0 - 2.0 7.0 - - 7.0

TA = Thigh (Note 8) - - 10 - - 10 - - 13

TA = Tlow (Note 8) - - 10 - - 10 - - 10

Average Temperature Coefficient of Input Offset

Voltage

VIO/T- 7.0 - - 7.0 - - 7.0 - V/°C

TA = Thigh to Tlow (Note 8)

Input Offset Current IIO - 5.0 50 - 5.0 50 - 5.0 50 nA

TA = Thigh to Tlow (Note 8) - 45 200 - 45 200 - 45 200

Input Bias Current IIB - -45 -250 - -45 -100 - -45 -250

TA = Thigh to Tlow (Note 8) - -50 -500 - -50 -250 - -50 -500

Average Temperature Coefficient of Input Offset

Current

IIO/T- 10 - - 10 - - 10 - pA/°C

TA = Thigh to Tlow (Note 8)

Input Common Mode Voltage Range (Note 9),

VCC = 30 V

VICR 0 - 24.3 0 - 24.3 0 - 24.3 V

VCC = 30 V, TA = Thigh to Tlow 0 - 24 0 - 24 0 - 24

Differential Input Voltage Range VIDR - - VCC - - VCC - - VCC V

Large Signal Open Loop Voltage Gain AVOL V/mV

RL = 2.0 k, VCC = 15 V, For Large VO Swing, 25 100 - 25 100 - 25 100 -

TA = Thigh to Tlow (Note 8) 15 - - 15 - - 15 - -

Channel Separation CS - -120 - - -120 - - -120 - dB

1.0 kHz ≤ f ≤ 20 kHz, Input Referenced

Common Mode Rejection CMR 50 70 - 50 70 - 50 70 - dB

RS ≤ 10 k

Power Supply Rejection PSR 50 100 - 50 100 - 50 100 - dB

Output Voltage-High Limit

TA = Thigh to Tlow (Note 8)

VOH V

VCC = 5.0 V, RL = 2.0 k, TA = 25°C3.3 3.5 - 3.3 3.5 - 3.3 3.5 -

VCC = 30 V, RL = 2.0 k22 - - 22 - - 22 - -

VCC = 30 V, RL = 10 k23 24 - 23 24 - 23 24 -

Output Voltage-Low Limit VOL - 5.0 20 - 5.0 20 - 5.0 20 mV

VCC = 5.0 V, RL = 10 k,

TA = Thigh to Tlow (Note 8)

Output Source Current IO+20 40 - 20 40 - 20 40 - mA

VID = +1.0 V, VCC = 15 V

Output Sink Current IO-

VID = -1.0 V, VCC = 15 V 10 20 - 10 20 - 10 20 - mA

VID = -1.0 V, VO = 200 mV - - - - - - - - - A

Output Short Circuit to Ground (Note 10) ISC - 40 60 - 40 60 - 40 60 mA

Power Supply Current (Total Device)

TA = Thigh to Tlow (Note 8)

ICC mA

VCC = 30 V, VO = 0 V, RL = ∞- 1.5 3.0 - 1.5 3.0 - 1.5 3.0

VCC = 5 V, VO = 0 V, RL = ∞- 0.7 1.2 - 0.7 1.2 - 0.7 1.2

8. LM258: Tlow = -25°C, Thigh = +85°C LM358, LM358A: Tlow = 0°C, Thigh = +70°C

LM2904/LM2904A: Tlow = -40°C, Thigh = +105°C LM2904V & NCV2904: Tlow = -40°C, Thigh = +125°C

NCV2904 is qualified for automotive use.

9. The input common mode voltage or either input signal voltage should not be allowed to go negative by more than 0.3 V. The upper end of

the common mode voltage range is VCC - 1.7 V.

10.Short circuits from the output to VCC can cause excessive heating and eventual destruction. Destructive dissipation can result from

simultaneous shorts on all amplifiers.

LM258, LM358, LM358A, LM2904, LM2904A, LM2904V, NCV2904

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CIRCUIT DESCRIPTION

The LM358 series is made using two internally

compensated, two-stage operational amplifiers. The first

stage of each consists of differential input devices Q20 and

Q18 with input buffer transistors Q21 and Q17 and the

differential to single ended converter Q3 and Q4. The first

stage performs not only the first stage gain function but also

performs the level shifting and transconductance reduction

functions. By reducing the transconductance, a smaller

compensation capacitor (only 5.0 pF) can be employed, thus

saving chip area. The transconductance reduction is

accomplished by splitting the collectors of Q20 and Q18.

Another feature of this input stage is that the input common

mode range can include the negative supply or ground, in

single supply operation, without saturating either the input

devices or the differential to single-ended converter. The

second stage consists of a standard current source load

amplifier stage.

Each amplifier is biased from an internal-voltage

regulator which has a low temperature coefficient thus

giving each amplifier good temperature characteristics as

well as excellent power supply rejection.

Figure 3. Large Signal Voltage

Follower Response

5.0 s/DIV

1.0 V/DIV

VCC = 15 Vdc

RL = 2.0 k

TA = 25°C

AVOL, OPEN LOOP VOLTAGE GAIN (dB)

V , INPUT VOLTAGE (V)

Figure 4. Input Voltage Range Figure 5. Large-Signal Open Loop Voltage Gain

8.0

6.0

4.0

2.0

0 2.0 4.0 6.0 8.0 10 12 14 16 18 20

VCC/VEE, POWER SUPPLY VOLTAGES (V)

120

100

-20

1.0 10 100 1.0 k 10 k 100 k 1.0 M

f, FREQUENCY (Hz)

Negative

Positive

VCC = 15 V

VEE = Gnd

TA = 25°C

LM258, LM358, LM358A, LM2904, LM2904A, LM2904V, NCV2904

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VOR, OUTPUT VOLTAGE RANGE (V )

VO, OUTPUT VOLTAGE (mV)

Figure 6. Large-Signal Frequency Response Figure 7. Small Signal Voltage Follower

Pulse Response (Noninverting)

Figure 8. Power Supply Current versus

Power Supply Voltage

Figure 9. Input Bias Current versus

Supply Voltage

8.0

6.0

4.0

2.0

1.0 10 100 1000

f, FREQUENCY (kHz)

550

500

450

400

350

300

250

200

00 1.0 2.0 3.0 4.0 5.0 6.0 7.0 8.0

t, TIME (ms)

2.4

2.1

1.8

1.5

1.2

0.9

0.6

0.3

00 5.0 10 15 20 25 30 35

VCC, POWER SUPPLY VOLTAGE (V) VCC, POWER SUPPLY VOLTAGE (V)

70 0 2.0 4.0 6.0 8.0 10 12 14 16 18 20

I , POWER SUPPLY CURRENT (mA)

I , INPUT BIAS CURRENT (nA)

RL = 2.0 k

VCC = 15 V

VEE = Gnd

Gain = -100

RI = 1.0 k

RF = 100 k

Input

Output

TA = 25°C

RL = R

VCC = 30 V

VEE = Gnd

TA = 25°C

CL = 50 pF

LM258, LM358, LM358A, LM2904, LM2904A, LM2904V, NCV2904

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TBP

R1 + R2

eo = C (1 + a + b) (e2 - e1)

R1 a R1

b R1

1/2

LM358

1/2

LM358

Vref

Vin

VOH

VOL

VinL = R1 (VOL - Vref)+ Vref

VinH =(VOH - Vref) + Vref

H = R1 + R2 (VOH - VOL)

100 k

C1 R2

100 k

Vin

Vref

Bandpass

Output

fo = 2 

R1 = QR

R2 =

R3 = TN R2

C1 = 10 C

Notch Output

Vref =V

Hysteresis

1/2

LM358

1/2

LM358

VinL VinH

Vref

1/2

LM358

1/2

LM358 1/2

LM358

TBP = Center Frequency Gain

TN = Passband Notch Gain

For:

TBP

= 1.0 kHz

= 10

= 1

= 160 k

= 0.001 F

= 1.6 M

Where:

MC1403

1/2

LM358

VCC

2.5 V

50 k

10 k

Vref

Vref = VCC

5.0 k

1/2

LM358

2  RC

For: fo = 1.0 kHz

R = 16 k

C = 0.01 F

VO = 2.5 V (1 + R1

R2 )

VCC

fo =

Figure 10. Voltage Reference Figure 11. Wien Bridge Oscillator

Figure 12. High Impedance Differential Amplifier Figure 13. Comparator with Hysteresis

Figure 14. Bi-Quad Filter

LM258, LM358, LM358A, LM2904, LM2904A, LM2904V, NCV2904

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Vref =V

Figure 15. Function Generator Figure 16. Multiple Feedback Bandpass Filter

For less than 10% error from operational amplifier.

If source impedance varies, filter may be preceded with voltage

follower buffer to stabilize filter parameters.

Where fo and BW are expressed in Hz.

Qo fo

BW < 0.1

Given: fo = center frequency

A(fo) = gain at center frequency

Choose value fo, C

Then: R3 = Q

 fo C

R1 = 2 A(fo)

R1 R3

4Q2 R1 -R3

R2 =

Vref =V

Vref

f = R1 + RC

4 CRf R1 R3 = R2 R1

R2 + R1

300 k

75 k

Triangle Wave

Output

Square

Wave

Output

VCC

Vref

Vin

CO = 10 C

if,

1/2

LM358

Vref

1/2

LM358

1/2

LM358

100 k

LM258, LM358, LM358A, LM2904, LM2904A, LM2904V, NCV2904

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ORDERING INFORMATION

Device Operating Temperature Range Package Shipping†

LM358ADR2G

0°C to +70°C

SOIC-8

(Pb-Free)

2500 Tape & Reel

LM358D SOIC-8 98 Units/Rail

LM358DG SOIC-8

(Pb-Free)

98 Units/Rail

LM358DR2 SOIC-8 2500 Tape & Reel

LM358DR2G SOIC-8

(Pb-Free)

2500 Tape & Reel

LM358DMR2 Micro8 4000 Tape & Reel

LM358DMR2G Micro8

(Pb-Free)

4000 Tape & Reel

LM358N PDIP-8 50 Units/Rail

LM358NG PDIP-8

(Pb-Free)

50 Units/Rail

LM258D

-25°C to +85°C

SOIC-8 98 Units/Rail

LM258DG SOIC-8

(Pb-Free)

98 Units/Rail

LM258DR2 SOIC-8 2500 Tape & Reel

LM258DR2G SOIC-8

(Pb-Free)

2500 Tape & Reel

LM258DMR2 Micro8 4000 Tape & Reel

LM258DMR2G Micro8

(Pb-Free)

4000 Tape & Reel

LM258N PDIP-8 50 Units/Rail

LM258NG PDIP-8

(Pb-Free)

50 Units/Rail

LM2904D

-40°C to +105°C

SOIC-8 98 Units/Rail

LM2904DG SOIC-8

(Pb-Free)

98 Units/Rail

LM2904DR2 SOIC-8 2500 Tape & Reel

LM2904DR2G SOIC-8

(Pb-Free)

2500 Tape & Reel

LM2904DMR2 Micro8 2500 Tape & Reel

LM2904DMR2G Micro8

(Pb-Free)

2500 Tape & Reel

LM2904N PDIP-8 50 Units/Rail

LM2904NG PDIP-8

(Pb-Free)

50 Units/Rail

LM2904ADMG Micro8

(Pb-Free)

4000 Tape & Reel

LM2904ADMR2 Micro8 4000 Tape & Reel

LM2904ADMR2G Micro8

(Pb-Free)

4000 Tape & Reel

LM2904AN PDIP-8 50 Units/Rail

LM2904ANG PDIP-8

(Pb-Free)

50 Units/Rail

†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging

Specifications Brochure, BRD8011/D.

LM258, LM358, LM358A, LM2904, LM2904A, LM2904V, NCV2904

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ORDERING INFORMATION

Device Operating Temperature Range Package Shipping†

LM2904VD

-40°C to +125°C

SOIC-8 98 Units/Rail

LM2904VDG SOIC-8

(Pb-Free)

98 Units/Rail

LM2904VDR2 SOIC-8 2500 Tape & Reel

LM2904VDR2G SOIC-8

(Pb-Free)

2500 Tape & Reel

LM2904VDMR2 Micro8 4000 Tape & Reel

LM2904VDMR2G Micro8

(Pb-Free)

4000 Tape & Reel

LM2904VN PDIP-8 50 Units/Rail

LM2904VNG PDIP-8

(Pb-Free)

50 Units/Rail

NCV2904DR2* SOIC-8 2500 Tape & Reel

NCV2904DR2G* SOIC-8

(Pb-Free)

2500 Tape & Reel

NCV2904DMR2* Micro8 4000 Tape & Reel

NCV2904DMR2G* Micro8

(Pb-Free)

4000 Tape & Reel

†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging

Specifications Brochure, BRD8011/D.

*NCV2904 is qualified for automotive use.

PDIP-8

N SUFFIX

CASE 626

SOIC-8

D SUFFIX

CASE 751

MARKING DIAGRAMS

x = 2 or 3

A = Assembly Location

WL, L = Wafer Lot

YY, Y = Year

WW, W = Work Week

G = Pb-Free Package

G= Pb-Free Package - (Note: Microdot may be in either location)

PDIP-8

AN SUFFIX

CASE 626

SOIC-8

VD SUFFIX

CASE 751

PDIP-8

VN SUFFIX

CASE 626

LMx58N

AWL

YYWWG

LM2904AN

AWL

YYWWG

LM2904N

AWL

YYWWG

LM2904VN

AWL

YYWWG

Micro8

DMR2 SUFFIX

CASE 846A

x58

AYWG

2904

AYWG

904A

AYWG

904V

AYWG

*This diagram also applies to NCV2904

LM358

ALYWA

2904

ALYW

2904V

ALYW

LMx58

ALYW

LM258, LM358, LM358A, LM2904, LM2904A, LM2904V, NCV2904

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PACKAGE DIMENSIONS

PDIP-8

N, AN, VN SUFFIX

CASE 626-05

ISSUE L

NOTES:

1. DIMENSION L TO CENTER OF LEAD WHEN

FORMED PARALLEL.

2. PACKAGE CONTOUR OPTIONAL (ROUND OR

SQUARE CORNERS).

3. DIMENSIONING AND TOLERANCING PER ANSI

Y14.5M, 1982.

NOTE 2 -A-

-B-

-T-

SEATING

PLANE

0.13 (0.005) B M

DIM MIN MAX MIN MAX

INCHESMILLIMETERS

A9.40 10.16 0.370 0.400

B6.10 6.60 0.240 0.260

C3.94 4.45 0.155 0.175

D0.38 0.51 0.015 0.020

F1.02 1.78 0.040 0.070

G2.54 BSC 0.100 BSC

H0.76 1.27 0.030 0.050

J0.20 0.30 0.008 0.012

K2.92 3.43 0.115 0.135

L7.62 BSC 0.300 BSC

M--- 10 --- 10

N0.76 1.01 0.030 0.040

LM258, LM358, LM358A, LM2904, LM2904A, LM2904V, NCV2904

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PACKAGE DIMENSIONS

SOIC-8 NB

CASE 751-07

ISSUE AJ

SEATING

PLANE

X 45 _

NOTES:

1. DIMENSIONING AND TOLERANCING PER

ANSI Y14.5M, 1982.

2. CONTROLLING DIMENSION: MILLIMETER.

3. DIMENSION A AND B DO NOT INCLUDE

MOLD PROTRUSION.

4. MAXIMUM MOLD PROTRUSION 0.15 (0.006)

PER SIDE.

5. DIMENSION D DOES NOT INCLUDE DAMBAR

PROTRUSION. ALLOWABLE DAMBAR

PROTRUSION SHALL BE 0.127 (0.005) TOTAL

IN EXCESS OF THE D DIMENSION AT

MAXIMUM MATERIAL CONDITION.

6. 751-01 THRU 751-06 ARE OBSOLETE. NEW

STANDARD IS 751-07.

0.10 (0.004)

DIM

MIN MAX MIN MAX

INCHES

4.80 5.00 0.189 0.197

MILLIMETERS

B3.80 4.00 0.150 0.157

C1.35 1.75 0.053 0.069

D0.33 0.51 0.013 0.020

G1.27 BSC 0.050 BSC

H0.10 0.25 0.004 0.010

J0.19 0.25 0.007 0.010

K0.40 1.27 0.016 0.050

M0 8 0 8

N0.25 0.50 0.010 0.020

S5.80 6.20 0.228 0.244

-X-

-Y-

0.25 (0.010)

-Z-

0.25 (0.010) ZSXS

____

1.52

0.060

7.0

0.275

0.6

0.024

1.270

0.050

4.0

0.155

ǒmm

inchesǓ

SCALE 6:1

*For additional information on our Pb-Free strategy and soldering

details, please download the ON Semiconductor Soldering and

Mounting Techniques Reference Manual, SOLDERRM/D.

SOLDERING FOOTPRINT*

LM258, LM358, LM358A, LM2904, LM2904A, LM2904V, NCV2904

http://onsemi.com

PACKAGE DIMENSIONS

Micro8t

CASE 846A-02

ISSUE G

0.08 (0.003) A S

NOTES:

1. DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982.

2. CONTROLLING DIMENSION: MILLIMETER.

3. DIMENSION A DOES NOT INCLUDE MOLD FLASH, PROTRUSIONS OR GATE

BURRS. MOLD FLASH, PROTRUSIONS OR GATE BURRS SHALL NOT EXCEED

0.15 (0.006) PER SIDE.

4. DIMENSION B DOES NOT INCLUDE INTERLEAD FLASH OR PROTRUSION.

INTERLEAD FLASH OR PROTRUSION SHALL NOT EXCEED 0.25 (0.010) PER SIDE.

5. 846A-01 OBSOLETE, NEW STANDARD 846A-02.

PIN 1 ID

8 PL

0.038 (0.0015)

-T-

SEATING

PLANE

A1 cL

*For additional information on our Pb-Free strategy and soldering

details, please download the ON Semiconductor Soldering and

Mounting Techniques Reference Manual, SOLDERRM/D.

SOLDERING FOOTPRINT*

8X 8X

6X ǒmm

inchesǓ

SCALE 8:1

1.04

0.041

0.38

0.015

5.28

0.208

4.24

0.167

3.20

0.126

0.65

0.0256

DIM

MIN NOM MAX MIN

MILLIMETERS

-- -- 1.10 --

INCHES

A1 0.05 0.08 0.15 0.002

b0.25 0.33 0.40 0.010

c0.13 0.18 0.23 0.005

D2.90 3.00 3.10 0.114

E2.90 3.00 3.10 0.114

e0.65 BSC

L0.40 0.55 0.70 0.016

-- 0.043

0.003 0.006

0.013 0.016

0.007 0.009

0.118 0.122

0.026 BSC

0.021 0.028

NOM MAX

4.75 4.90 5.05 0.187 0.193 0.199

ON Semiconductor and are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice

to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability

arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages.

“Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All

operating parameters, including “Typicals” must be validated for each customer application by customer's technical experts. SCILLC does not convey any license under its patent rights

nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications

intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should

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and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death

associated with such unintended or unauthorized use, even if such claim alleges that SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal

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LM358/D

Micro8 is a trademark of International Rectifier.

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